EP2375819B1 - Verfahren und System zur Übergabe in einem Rundfunkkommunikationssystem - Google Patents
Verfahren und System zur Übergabe in einem Rundfunkkommunikationssystem Download PDFInfo
- Publication number
- EP2375819B1 EP2375819B1 EP10013212.5A EP10013212A EP2375819B1 EP 2375819 B1 EP2375819 B1 EP 2375819B1 EP 10013212 A EP10013212 A EP 10013212A EP 2375819 B1 EP2375819 B1 EP 2375819B1
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- European Patent Office
- Prior art keywords
- subscriber station
- sector
- pilot
- active set
- handoff
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0011—Control or signalling for completing the hand-off for data sessions of end-to-end connection
- H04W36/0027—Control or signalling for completing the hand-off for data sessions of end-to-end connection for a plurality of data sessions of end-to-end connections, e.g. multi-call or multi-bearer end-to-end data connections
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0007—Control or signalling for completing the hand-off for multicast or broadcast services, e.g. MBMS
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/08—Reselecting an access point
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/16—Performing reselection for specific purposes
- H04W36/18—Performing reselection for specific purposes for allowing seamless reselection, e.g. soft reselection
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/34—Reselection control
- H04W36/36—Reselection control by user or terminal equipment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/06—Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/30—Resource management for broadcast services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/26—Network addressing or numbering for mobility support
- H04W8/265—Network addressing or numbering for mobility support for initial activation of new user
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/24—Reselection being triggered by specific parameters
- H04W36/30—Reselection being triggered by specific parameters by measured or perceived connection quality data
Definitions
- the present invention relates to broadcast communications, otherwise known as point-to-multipoint, in a wireline or a wireless communication system. More particularly, the present invention relates to a system and method for a handoff in such a broadcast communication system.
- Communication systems have been developed to allow transmission of information signals from an origination station to a physically distinct destination station.
- the information signal is first converted into a form suitable for efficient transmission over the communication channel.
- Conversion, or modulation, of the information signal involves varying a parameter of a carrier wave in accordance with the information signal in such a way that the spectrum of the resulting modulated carrier is confined within the communication channel bandwidth.
- the original information signal is replicated from the modulated carrier wave received over the communication channel.
- Such a replication is generally achieved by using an inverse of the modulation process employed by the origination station.
- Modulation also facilitates multiple-access, i.e., simultaneous transmission and/or reception, of several signals over a common communication channel.
- Multiple-access communication systems often include a plurality of subscriber units requiring intermittent service of relatively short duration rather than continuous access to the common communication channel.
- multiple-access techniques are known in the art, such as time division multiple-access (CDMA), frequency division multiple-access (FDMA), and amplitude modulation multiple-access (AM).
- CDMA code division multiple-access
- IS-95 TIA/EIA/IS-95 Mobile Station-Base Station Compatibility Standard for Dual-Mode Wide-Band Spread Spectrum Cellular System
- a multiple-access communication system may be a wireless or wireline and may carry voice and/or data.
- An example of a communication system carrying both voice and data is a system in accordance with the IS-95 standard, which specifies transmitting voice and data over the communication channel.
- a method for transmitting data in code channel frames of fixed size is described in detail in U.S. Patent No. 5,504,773 , entitled “METHOD AND APPARATUS FOR THE FORMATTING OF DATA FOR TRANSMISSION", assigned to the assignee of the present invention.
- the data or voice is partitioned into code channel frames that are 20 milliseconds wide with data rates as high as 14.4 Kbps.
- Additional examples of a communication systems carrying both voice and data comprise communication systems conforming to the " 3rd Generation Partnership Project" (3GPP ), embodied in a set of documents including Document Nos. 3G TS 25.211, 3G TS 25.212, 3G TS 25.213, and 3G TS 25.214 (the W-CDMA standard), or "TR-45.5 Physical Layer Standard for cdma2000 Spread Spectrum Systems" (the IS-2000 standard).
- 3GPP 3rd Generation Partnership Project
- HDR high data rate
- This HDR system is based on a communication system disclosed in US. Patent No. 6,574,211 entitled “METHOD AND APPARATUS FOR HIGH RATE PACKET DATA TRANSMISSION,” filed 11/3/1997, assigned to the assigneé of the present invention.
- the HDR communication system defines a set of data rates, ranging from 38.4 kbps to 2.4 Mbps, at which an access point (AP) may send data to a subscriber station (access terminal, AT). Because the AP is analogous to a base station, the terminology with respect to cells and sectors is the same as with respect to voice systems.
- communications between users are conducted through one or more base stations.
- a first user on one subscriber station communicates to a second user on a second subscriber station by transmitting data on a reverse link to a base station.
- the base station receives the data and can route the data to another base station.
- the data is transmitted on a forward link of the same base station, or the other base station, to the second subscriber station.
- the forward link refers to transmission from a base station to a subscriber station and the reverse link refers to transmission from a subscriber station to a base station.
- the communication can be conducted between a first user on one subscriber station and a second user on a landline station.
- a base station receives the data from the user on a reverse link, and routes the data through a public switched telephone network (PSTN) to the second user.
- PSTN public switched telephone network
- the forward link and the reverse link are allocated separate frequencies.
- each base station transmits a pilot signal of a common PN spreading code offset in code phase from pilot signals of other base stations.
- a subscriber station assisted soft handoff operates based on the pilot signal strength detected by the subscriber station.
- four distinct sets of pilot offsets are defined: the Active Set, the Candidate Set, the Neighbor Set, and the Remaining Set.
- the Active Set identifies the base station(s) or sector(s) through which the subscriber station is communicating.
- the Candidate Set identifies the base station(s) or sector(s) for which the pilots have been received at the subscriber station with sufficient signal strength to make them members of the Active Set, but have not been placed in the Active Set by the base station(s).
- the Neighbor Set identifies the base station(s) or sector(s), which are likely candidates for the establishment of communication with the subscriber station.
- the Remaining Set identifies the base station(s) or sector(s) having all other possible pilot offsets in the current system, excluding those pilot offsets currently in the Active, the Candidate and Neighbor sets.
- the subscriber station is provided with a list of PN offsets corresponding to base stations of neighboring cells.
- the subscriber station is provided with a message which identifies at least one pilot corresponding to a base station to which the subscriber station is to communicate through.
- a subscriber unit When communication is initially established, a subscriber unit communicates through a first base station and the Active Set contains only a pilot signal of the first base station. The subscriber unit monitors pilot signal strength of the base stations of the Active Set, the Candidate Set, the Neighbor Set, and the Remaining Set. When a pilot signal of a base station in the Neighbor Set or Remaining Set exceeds a predetermined threshold level (T_ADD), the pilot signal identifier is added to the Candidate Set. The subscriber unit communicates a Power Strength Measurement Message (PSMM) to the first base station identifying the new base station. A system controller decides whether to establish communication between the new base station and the subscriber unit, and communicates the decision in a Handoff Direction Message (HDM).
- PSMM Power Strength Measurement Message
- the message identifies the pilots of the Active Set which correspond to base stations through which the subscriber station is to communicate.
- the system controller also communicates information to each base station corresponding to a new pilot in the Active Set which instructs each of these base stations to establish communications with the subscriber station.
- the subscriber station communications are thus routed through all base stations identified by pilots in the subscriber station Active Set.
- the subscriber unit When the subscriber unit is communicating through multiple base stations, it continues to monitor the signal strength of the base stations of the Active Set, the Candidate Set, the Neighbor Set, and the Remaining Set Should the signal strength corresponding to a base station of the Active Set drop below a predetermined threshold (T_DROP) for a predetermined period of time (T_TDROP), the subscriber unit generates and transmits a message to report the event
- T_DROP predetermined threshold
- T_TDROP predetermined period of time
- the system controller receives this message through at least one of the base stations with which the subscriber unit is communicating.
- the system controller may then decide to terminate communications through the base station whose pilot signal strength as measured at the subscriber station is below the T_DROP.
- the system controller upon deciding to terminate communications through a base station generates a new message identifying the pilots of the Active Set to which the subscriber station is to communicate through. In this message, which identifies pilots of the Active Set, the pilot of the base station to which communications with the subscriber station are to be terminated is not identified.
- the system controller also communicates information to the base station not identified in the Active Set to terminate communications with the subscriber station.
- the subscriber station upon receiving the message identifying pilots of the Active Set, discontinues processing signals from the base station whose pilot is no longer in the Active Set.
- the subscriber station communications are thus routed only through base stations identified by pilots in the subscriber station Active Set. In the case where there were previously more than one pilot identified in the Active Set and now only one, the subscriber station communicates only to the one base station corresponding to the pilot identified in the subscriber station Active Set.
- broadcast services provide central station-to-multipoint communication service.
- the basic model of a broadcast system consists of a broadcast net of users served by one or more central stations, which transmit information with a certain contents, e.g., news, movies, sports events and the like to the users.
- Each broadcast net user's subscriber station monitors a common broadcast forward link signal. Because the central station fixedly determines the content, the users are generally not communicating back. Examples of common usage of broadcast services communication systems are TV broadcast, radio broadcast, and the like. Such communication systems are generally highly specialized purpose-build communication systems.
- a communication system provides wireless communication in a coverage area and includes a base station and a mobile station.
- the base station has a plurality of sectors where a corresponding plurality of pilot signals are transmitted.
- a sector transmits a forward link signal for communicating to the mobile station.
- the mobile station transmits a reverse link signal and a message signal including a list of a plurality of candidate sectors for a soft hand-off routine.
- a method and apparatus of determining the candidate list includes measuring reverse link signal which are received at said plurality of sectors. Then, comparing reverse link signal level received at sector to the reverse link signal levels received at all other sectors of said plurality of sectors. Finally, the candidate list is determined according to a result of comparing the reverse link signal levels.
- Examples disclosed herein address the above stated needs by providing a method for autonomous handoff in a broadcast communication system, by receiving at a subscriber station a broadcast channel transmitted through a first sector, measuring at the subscriber station a quality metric of a forward link transmitted by sectors, identifying at the subscriber station at least once sector, different from the first sector, for which said measured quality metric exceeds a first pre-determined threshold; and combining at the subscriber station broadcast channels received from the first sector and said at least one identified sector.
- the above stated needs are addressed by providing method for a set management in a broadcast communication system, comprising providing to a subscriber station a first list identifying a first set of sectors; measuring at the subscriber station a quality metric of a forward link transmitted by each identified sector; removing from said first list at the subscriber station an identifier of a sector said measured quality metric of which exceeds a first predetermined level; and placing the identifier of the sector into a second list at the subscriber station.
- the above stated needs are addressed by providing method for method for transitioning a subscriber station from an area covered by a first sector into an area covered by a different sector in a broadcast communication system, comprising determining at the subscriber station a configuration of a broadcast channel transmitted by a second sector; and transitioning from the coverage area covered by the first sector in accordance with said determined configuration of the broadcast channel transmitted by the second sector.
- point-to-point communication is used herein to mean a communication between two subscriber stations over a dedicated communication channel.
- group service point-to-multipoint communication, push-to-talk, or dispatch service are used herein to mean a communication wherein a plurality of subscriber stations are receiving communication from - typically - one subscriber station.
- the term packet is used herein to mean a group of bits, including data (payload) and control elements, arranged into a specific format.
- the control elements comprise, e.g., a preamble, a quality metric, and others known to one skilled in the art.
- Quality metric comprises, e.g., a cyclical redundancy check (CRC), a parity bit, and others known to one skilled in the art.
- the term access network is used herein to mean a collection of base stations (BS) and one or more base stations' controllers.
- the access network transports data packets between multiple subscriber stations.
- the access network may be further connected to additional networks outside the access network, such as a corporate intranet or the Internet, and may transport data packets between each access terminal and such outside networks.
- base station is used herein to mean the hardware with which subscriber stations communicate.
- Cell refers to the hardware or a geographic coverage area, depending on the context in which the term is used.
- a sector is a partition of a cell. Because a sector has the attributes of a cell, the teachings described in terms of cells are readily extended to sectors.
- a subscriber station is used herein to mean the hardware with which an access network communicates.
- a subscriber station may be mobile or stationary.
- a subscriber station may be any data device that communicates through a wireless channel or through a wired channel, for example using fiber optic or coaxial cables.
- a subscriber station may further be any of a number of types of devices including but not limited to PC card, compact flash, external or internal modem, or wireless or wireline phone.
- a subscriber station that is in the process of establishing an active traffic channel connection with a base station is said to be in a connection setup state.
- a subscriber station that has established an active traffic channel connection with a base station is called an active subscriber station, and is said to be in a traffic state.
- the term physical channel is used herein to mean a communication route over which a signal propagates described in terms of modulation characteristics and coding.
- logical channel is used herein to mean a communication route within the protocol layers of either the base station or the subscriber station.
- communication channel/link is used herein to mean a physical channel or a logical channel in accordance with the context.
- reverse channel/link is used herein to mean a communication channel/link through which the subscriber station sends signals to the base station.
- a forward channel/link is used herein to mean a communication channel/link through which a base station sends signals to an subscriber station.
- soft hand-off is used herein to mean a communication between a subscriber station and two or more sectors, wherein each sector belongs to a different cell.
- the reverse link communication is received by both sectors, and the forward link communication is simultaneously carried on the two or more sectors' forward links.
- the term softer hand-off is used herein to mean a communication between a subscriber station and two or more sectors, wherein each sector belongs to the same cell.
- the reverse link communication is received by both sectors, and the forward link communication is simultaneously carried on one of the two or more sectors' forward links.
- erasure is used herein to mean failure to recognize a message.
- dedicated channel is used herein to mean a channel modulated by information specific to an individual subscriber station.
- common channel is used herein to mean a channel modulated by information shared among all subscriber stations.
- FIG. 1 illustrates conceptual block diagram of a communication system 100, capable of performing High-Speed Broadcast Service (HSBS) in accordance with embodiments of the present invention.
- HSBS High-Speed Broadcast Service
- the broadcast content originates at a content server (CS) 102.
- the content server may be located within the carrier network (not shown) or outside Internet (IP) 104.
- the content is delivered in a form of packets to a broadcast packet data-serving node (BPDSN) 106.
- BPDSN broadcast packet data-serving node
- the term BPSDN is used because although the BPDSN may be physically co-located or be identical to the regular PDSN (not shown), the BPSDN may be logically different from a regular PDSN.
- the BPDSN 106 delivers the packets according to the packet's destination to a packet control function (PCF) 108.
- the PCF Is a control entity controlling function of base stations 110 for the HSBS and any general packet data services, as a base station controller is for regular voice services.
- FIG. 1 shows that the PCF is physically co-located or even identical, but logically different from a base station controller (BSC).
- BSC base station controller
- the BSC/PCF 108 provides the packets to base stations 110.
- the communication system 100 enables the HSBS by introducing a forward broadcast shared channel 112 (F-BSCH) transmitted by base stations 110.
- the F-BSCH 112 need not be transmitted from every base station 110.
- a F-SBCH is capable of high data rates that can be received by a large number of subscriber stations.
- the term forward broadcast shared channel is used.
- the F-BSCH may be monitored by a large number of subscribers 114. Consequently, the base station-subscriber station signaling message based handoff is not efficient in a HSBS because such a handoff results in a high signaling load and may not be feasible since it is a fixed broadcast transmission not tailored for a particular subscriber station.
- the base station-subscriber station signaling message based handoff is not efficient in a HSBS because such a handoff results in a high signaling load and may not be feasible since it is a fixed broadcast transmission not tailored for a particular subscriber station.
- there are only few common broadcast forward channel on a given CDMA carrier which makes autonomous soft and softer handoff without the base station-subscriber station signaling message exchange practical.
- a SHO group means a group of all base station transmitting the Common Broadcast Forward Link synchronously.
- FIG. 2 illustrates two SHO groups, SHO Group 1 202 comprising BS 1 , BS 2 , and BS 3 , and SHO Group 2 202 comprising BS 4 , BS 5 , BS 6 , and BS 7 .
- a hard handoff is required.
- the term hard handoff as used here means that monitoring of a first channel is discontinued before monitoring of the second channel begins ("break before make").
- a subscriber station monitors transmissions from a BS 7 and enters a coverage area of a new base station, e.g., BS 6 , because both base stations are in the same SHO group the subscriber can monitor the F-BSCH transmission from the base stations before stop listening to the F-BSCH transmission from the BS 7 .
- a subscriber station uses a quality metric of a forward link for decision, which F-BSCH to monitor.
- the quality metric may comprise, e.g., pilot signal strength, bit-error-rate, packet-error-rate, and other quality metrics known to one of ordinary skills in the art.
- the subscriber stations subscribed to HSBS services acquires a sector, it decodes a message, which provides the subscriber station with a list of identities of sectors that are part of the sector's SHO group for each supported F-BSCH.
- the list is provided in a Broadcast Service Parameters Message transmitted in each sector.
- the list is provided in existing overhead messages.
- the subscriber station initially assigns identifiers of sectors in the provided list into a Neighbor Set.
- the subscriber station monitors the signal strength of the sectors in the Neighbor Set, and assigns identifiers of the pilot signal into the Active Set, the Candidate Set, the Neighbor Set, in accordance with the monitored signal strength.
- the subscriber station may update the overhead parameters of the BS 6 simultaneously.
- the Broadcast Service Parameters Message from the new sector may indicate additional members and delete some members of the SHO groups relative to the information in the old sector Broadcast Service Parameters Message. Therefore, while the Broadcast Service Parameters Message from the BS 6 (BSPM 6 ) contained members ⁇ BS 4 , BS 5 , BS 7 ⁇ , the Broadcast Service Parameters Message from the BS 7 (BSPM 7 ) contains only members ⁇ BS 4 , BS 6 ⁇ . The subscriber station thus places certain sectors to a Remaining Set.
- a subscriber station may combine synchronous transmission of multiple sectors, subject to subscriber station capabilities, e.g., number of receiver fingers, processing power, and other known to one of ordinary skills in the art. Consequently, when the subscriber station decides to monitor an HSBS channel modulating a F-BSCH, assuming that the Active Set contains more than one pilot signal identifiers, the subscriber station may select to combine the F-BSCH from the sectors, the pilot signal identifiers of which belong to the Active Set, and have the highest signal strength. The subscriber station then tunes to the frequency transmitted by the sectors, modulated by the selected F-BSCH that is modulated by the HSBS channel.
- the subscriber station continues monitoring pilot signal strength of the sectors in the Active Set, the Candidate Set, the Neighbor Set, and the Remaining Set.
- pilot signal strength of the sectors in the Active Set the Candidate Set, the Neighbor Set, and the Remaining Set.
- the subscriber station adds the pilot signal's identifier to the Active Set.
- the subscriber station monitors the F-BSCH transmitted by only the sectors identified by pilots in the subscriber station Active Set.
- the autonomous soft handoff of the present invention utilizes a concept of pilot sets.
- the sector-subscriber station signaling assisted with pilot Set management does not utilize such a signaling, therefore, a different method of set management is needed.
- the set management in accordance with the above-referenced patents Nos. 5,267,261 , and 5,933,787 is reviewed, and then examples in accordance with the present invention are described.
- FIG: 3 illustrates an example of the signaling pertaining to the changes in a pilot's strength and the pilot's membership in the various sets during a subscriber assisted handoff.
- the pilot PA is in the Neighbor Set with a rising signal strength as measured by the subscriber station's searcher receiver.
- the pilot signal strength is below the threshold T_ADD, which would qualify the pilot to enter the Candidate Set.
- the subscriber station control processor makes a decision to place a non-Active or non-Candidate Set member in the Candidate Set when the measured pilot exceeds the threshold value T_ADD, an event to which the subscriber station control processor generates and transmits a PSMM.
- the subscriber station control processor compares the measured value with the T_ADD value and determines that the T_ADD value has been exceeded. The subscriber station control processor thus generates and transmits a corresponding PSMM.
- the searcher may detect several multipath versions of pilot PA, which may be time-shifted from one another by several chips.
- the sum of all detected usable multipath versions of the pilot may be used for identifying the strength of the pilot.
- the decision for placing a Candidate Set member into the Active Set is made by the system controller. For example, when the measured Candidate pilot is of a signal strength which exceeds the signal strength of one other Active Set member pilot by a predetermined value it may join the Active Set. However there may be limits placed on the number of Active Set members. Should the addition of a pilot to the Active Set exceed the Active Set limit, the weakest Active Set pilot may be removed to another set.
- a Handoff Direction Message is sent to the subscriber station, all sectors that have a traffic channel assigned to the subscriber station, which includes the pilot PA in the Active Set.
- the Handoff Direction Message is received at the subscriber station where the identified pilots, including pilot PA, are used to demodulate received signals from the sector from which pilot PA was transmitted and/or from another sector.
- the identified pilots including pilot PA
- the Handoff Direction Message one version or multipath versions of the information signals if present corresponding to the identified pilot from the same sector may be demodulated.
- the signals ultimately demodulated may therefore be transmitted from one or more sector and may be multipath versions thereof.
- the subscriber station diversity combines at the received signals at the symbol level. Therefore, all sectors participating in the soft handoff must transmit identical symbols, except for closed loop power control subchannel data as discussed later herein.
- the pilot PA falls in signal strength to where at time t2 the signal strength drops below a predetermined threshold value T_DROP.
- T_DROP a predetermined threshold value
- the system controller In response to this PSMM, the system controller generates a Handoff Direction Message that is sent to the subscriber station, by all sectors having a traffic channel assigned to the subscriber station, which no longer includes the pilot PA in the Active Set.
- the Handoff Direction Message is received at the subscriber station for removing the pilot PA from the Active Set, for example to the Neighbor Set. Once removed from the Active Set this pilot is no longer used for signal demodulation.
- a spread spectrum communication system is interference limited.
- the Candidate Set serves the purpose of keeping the pilot signal identifier in a convenient place for quick access, and the search frequency for the pilot signals in the Candidate Set is higher than the search frequency for the pilot signals in the Neighbor Set. Therefore, the effect of a delay between the PSMM and the HDM was minimized because upon receiving the HDM, the subscriber could quickly place the pilot signal into Active Set and start traffic channel combining, which improved signal-to-interference-and-noise-ratio (SINR).
- SINR signal-to-interference-and-noise-ratio
- the subscriber can change the search frequency and start traffic channel combining without the delay.
- the Candidate Set is eliminated from the four distinct sets of pilot offsets.
- a pilot strength exceeds a first threshold T_ADD1 at time to, the pilot is promoted from the Neighbor Set directly to the Active Set.
- T_ADD1 a first threshold
- One of ordinary skills in the art recognizes methods of promoting a pilot from a Neighbor Set are equally applicable for promoting a member form the Remaining set.
- the Candidate Set is retained.
- the transition from a Neighbor Set to a Candidate Set occurs at time to, when a pilot strength exceeds a first threshold T_ADD1.
- the pilot signal is then observed, and in accordance with one example promoted from the Candidate Set to the Active Set when the pilot strength exceeds a second threshold T_ADD2 at time t2.
- a timer for the pilot is started at time to. If the pilot remains in the Candidate Set for the timer interval (T_TADD), the pilot is promoted to the Active Set. If the pilot is removed from the Candidate Set before the T_TADD, the timer is stopped. Thus, the pilot signal is promoted only if the pilot signal strength increases or is stable.
- pilots P1, P2 and P3 are members of the Active Set while pilot P3 is initially a member of another set such as the Neighbor Set.
- the number of Active Set members correspond to the number of data receivers available, however the Active Set may be of a greater number of pilots.
- the subscriber station is therefore permitted to select from the Active Set member pilots those of greatest signal strength for demodulation of the corresponding data signals.
- one or more pilots of the Active sets may have multipath propagations of the same sector or sector transmitted pilot as received at the subscriber station.
- the subscriber station again selects signals for demodulation corresponding to those multipath versions of the pilots identified in the Active Set pilots of greatest signal strength. Therefore the actual sector signals demodulated by the subscriber station may be from different sectors or from a same sector.
- the subscriber station control processor At time to the pilot P0 as measured by the searcher receiver and compared with the value T_ADD by the subscriber station control processor is determined to be greater than the value T_ADD. As discussed above, this event results in the subscriber station control processor generating a PSMM, which is transmitted by the subscriber station to a sector for relay to the system control processor. The subscriber station also adds the pilot P0 to the Candidate Set.
- the pilot P0 exceeds pilot P1 by a value greater than the value T_COMP.
- the subscriber station control processor generates another PSMM, which is transmitted by the subscriber station to a sector for relay to the system control processor.
- T_COMP the system controller may begin setting up a modem at another sector or sector for communicating with the subscriber station. However if the pilot is not of another sector or sector no setup is necessary. In either case the system controller would then communicate a Handoff Direction Message to the subscriber station including the pilot if not already an Active Set member.
- pilot P0 grows stronger.
- the pilot P0 has grown stronger than the next strongest pilot P2 by a value greater than the value T_COMP. Consequently, the subscriber station control processor generates another PSMM, which is transmitted by the subscriber station to a sector for relay to the system control processor. Since the pilot P0 has exceed the pilot P2 by the value T_COMP, the system controller may add the pilot to the Active Set as discussed above if not yet already done.
- the addition of strong pilot to the Active Set via the T_COMP method served the purpose to quickly add a pilot with a fact increasing signal strength to the Active Set.
- a base station controller had discretion to promote a pilot from a Candidate Set to the Active Set. If the sector decided not to promote the pilot to the Active Set, and the pilot signal strength kept rising, the sector transmitting the pilot signal became an interferer. To prompt the base station controller to act, the new PSMM in accordance with the T_COMP method was generated.
- the subscriber station identifies a pilot with a fast increasing signal strength, the subscriber station can change the search frequency and start channel combining immediately. Consequently, in accordance with one example of the present invention, the T_COMP method of adding pilot identifiers to an Active Set is not utilized.
- the size of the Active Set is limited. Therefore, a subscriber station may refuse to add an identifier of a pilot signal with sufficient signal strength into an Active Set when the Active Set is already full. If the pilot signal strength keeps rising, a sector transmitting the pilot signal became an interferer, and it may be advantageous to remove an identifier of a weaker pilot signal from the Active Set, add the identifier of the fast raising pilot, and start combining a signal from the sector. Therefore, in accordance with another example of the present invention, the alternative mode of adding a pilot to the Active Set is retained. The method must be modified in accordance with the above-described examples of the present invention.
- the subscriber station monitors whether a signal strength of a pilot, an identifier of which is not a member of an Active Set, exceeds a pilot strength of a pilot an identifier of which is a member of the Active Set by a value of T_COMPa. Upon identifying such a pilot, the subscriber station makes a decision whether to add an identifier of the pilot to the Active Set.
- the identifier of a pilot will be added to the Candidate Set when the pilot signal strength exceeds T_ADD2 as dicussed.
- the subscriber station monitors whether a signal strength of a pilot, an identifier of which is a member of a Candidate Set, exceeds a pilot strength of a pilot an identifier of which is a member of the Active Set by a value of T_COMPa. Upon identifying such a pilot, the subscriber station makes a decision whether to add an identifier of the pilot to the Active Set.
- the subscriber station may decide to add the pilot to the Active Set, once the pilot signal strength exceeds the signal strength of a pilot with the weakest signal strength already in an Active set by the value of T_COMP, regardless of whether the timer interval T_TADD expired or not.
- the pilot is removed from the Active Set whenever the signal strength of the pilot is determined to be below T_DROPa a period exceeding T_TDROPa.
- the subscriber station may need to handoff form a coverage area of a original sector to a coverage area of a second sector.
- the method of performing the handoff depends on a state of the subscriber station in the coverage area of the original sector and the configuration of the original and the second sectors.
- a subscriber station Upon a power-up, a subscriber station enters a system determination substate, in which the system upon which to perform an acquisition attempt is selected.
- the subscriber station transitions into a pilot acquisition sub-state, in which the subscriber station attempts to demodulate a pilot signal based on the acquisition parameters retrieved in the system determination sub-state.
- the subscriber station attempts to acquire a CDMA pilot signal in accordance with the acquisition parameters.
- the subscriber station detects a pilot signal with energy above a predetermined threshold value, the subscriber station transitions into a Sync channel acquisition sub-state and attempts acquisition of the Sync channel.
- the Sync channel as broadcasted by the sectors includes basic system information such as the system identification (SID) and the network identification (NID), but most importantly provides timing information to the subscriber station.
- the subscriber station adjusts the subscriber's station timing in accordance with the Sync channel information and then enters the subscriber station idle state.
- the subscriber station begins the idle state processing by receiving a channel provided by the system for overhead messages identified in the Sync channel message, and if a sector, which the subscriber station acquired supports multiple frequencies, both the subscriber station and the sector use a hash function to determine, which frequency to use for communication.
- the subscriber and sector then use the hash function to determine a paging channel, which the subscriber monitors.
- the hashing function accepts number of entities to hash, e.g., frequencies, paging channels, and the like and an international subscriber station identifier (IMSI) and outputs one entity.
- IMSI international subscriber station identifier
- the subscriber station can receive messages, receive an incoming call, initiate a call, initiate registration, or initiate message transmission. Furthermore, a subscriber subscribed to an HSBS service may monitor an HSBS channel modulating a F-BSCH.
- the frequency determined by the hash function may or may not be modulated by F-BSCH. Consequently, if a subscriber station desires to monitor an HSBS channel modulating a F-BSCH on a frequency different form the frequency determined by the hash function, it must retune to the frequency modulated by the F-BSCH.
- the subscriber station may be in the following states at the original sector:
- the subscriber station determines the configuration of the second sector in accordance with a value of an HSBS neighbor configuration indicator (NGHBR_CONFIG_HSBS) transmitted by the current sector.
- NGHBR_CONFIG_HSBS HSBS neighbor configuration indicator
- Specific values of NGHBR_CONFIG_HSBS indicate, e.g., whether a HSBS configuration of the neighbor sector is known, whether the neighbor sector is transmitting the F-BSCH, whether the F-BSCH of the neighbor sector is being transmitted on the same frequency, whether the HSBS channels are synchronized, whether the same set of HSBS channels are being multiplexed in the same manner into the F-BSCH being transmitted in the neighbor sector, whether autonomous soft-handoff is allowed, and other configuration information known to one skilled in the art.
- the NGHBR_CONFIG_HSBS is included in the Broadcast Service Parameters Message transmitted in the current sector.
- the subscriber station When the subscriber station makes a decision to handoff to a second sector, the subscriber station ascertains the NGHBR_CONFIG_HSBS for the second sector. The subscriber station then takes action in accordance with the value of the NGHBR_CONFIG_HSBS.
- NGHBR_CONFIG_HSBS Several scenarios in accordance with above-listed examples of NGHBR_CONFIG_HSBS values are discussed. One of ordinary skills in the art recognizes that the scenarios discussed are communication system implementation dependent.
- the subscriber station When the subscriber station is in state 1 or 2, the subscriber station is not concerned with the status of the F-BSCH. Consequently, the subscriber station receives a NGHBR_CONFIG_HSBS, and determines configuration parameters for the second sector. The subscriber station then performs idle handoff in accordance with an idle handoff method implemented in the communication system.
- the idle handoff method uses the above-disclosed hashing methods to determine a frequency, the subscriber station tunes to and a paging channel the subscriber station starts monitoring.
- the subscriber station may choose to tune to the frequency modulated by the F-BSCH, even if the subscriber station is not interested in monitoring a HSBS channel at present, if sufficient information about the neighbor HSBS channels is available in the Broadcast Service Parameter Message of the current sector.
- the NGHBR_CONFIG_HSBS received by the subscriber station in state 1 or 2 may indicate that configuration of the second subscriber station is unknown.
- the subscriber station handoffs to a sector, for which NGHBR_CONFIG_HSBS indicates that a configuration is known.
- the subscriber station attempts to find non-broadcast related neighbor information.
- communication systems in accordance with IS-95 and IS-2100 standards provide a neighbor configuration identifier (NGHBR_CONFIG), which indicates neighbor information, e.g., number of frequency assignment and paging channels.
- NGHBR_CONFIG neighbor configuration identifier
- the subscriber station need not initiate the full initialization process as described above, but acquires a frequency and a paging channel of the neighbor sector using the above-described hashing method in accordance with the neighbor information. If such information is not found or is inconclusive, the subscriber station must enter initialization process.
- a subscriber station in state 3 receives a NGHBR_CONFIG_HSBS indicating that a soft-handoff with the F-BSCH of the second sector is allowed, the subscriber station performs autonomous soft handoff if the subscriber station supports it.
- a soft handoff is allowed if both sectors belong to the same SHO group, the F-BSCH is being transmitted on the same frequency through both sectors, the same set of HSBS channels are being multiplexed identically onto the F-BSCH, and F-BSCH transmissions are synchronized.
- the subscriber station performs hard handoff in accordance with the described examples, acquires a new sector, and resumes monitoring the HSBS channel.
- a subscriber station in state 3 When a subscriber station in state 3 receives a NGHBR_CONFIG_HSBS indicating that the HSBS channel is available in the second sector but the transmissions are not synchronized among the sector, the subscriber station performs hard handoff. Because the two broadcast channels are identical, the subscriber station transitions directly to the HSBS channel frequency of the second sector and resumes monitoring HSBS channel.
- the subscriber station If the subscriber station failed to acquire all necessary parameters from the NGHBR_CONFIG_HSBS, the subscriber station performs a hard handoff, to the second sector, acquires a frequency and a paging channel of the second sector using the above-described hashing method in accordance with the neighbor information, determines information about the HSBS channel from the Broadcast Service Parameters Message, tunes to the HSBS channel frequency, and resumes receiving the HSBS channel.
- the subscriber station in state 3 receives a NGHBR_CONFIG_HSBS indicating that the HSBS channel is available in the second sector, but the configuration parameters of the F-BSCH are different, e.g., the F-BSCH of the second sector is being transmitted on different frequency, set of HSBS channels multiplexed onto the F-BSCH channel is not identical or is not multiplexed in the same manner.
- the subscriber station performs a hard handoff to the second sector, acquires a frequency and a paging channel of the second sector using the above-described hashing method in accordance with the neighbor information, determines information about the HSBS channel from the Broadcast Service Parameters Message, tunes to the HSBS channel frequency, and resumes receiving the HSBS channel.
- the subscriber station can determine the difference, which can be remedied by an action of the subscriber station, e.g., all parameters are identical, except the frequency, the subscriber station may transition directly to the HSBS channel frequency of the second sector and resume monitoring HSBS channel.
- the subscriber station handoff to a sector transmitting a F-BSCH with a weaker, but acceptable, pilot signal.
- the subscriber station discontinues reception of the F-BSCH and performs idle handoff to the second sector in accordance with an idle handoff method implemented in the communication system.
- the idle handoff method uses the above-disclosed hashing methods to determine a frequency the subscriber station tunes to and a paging channel the subscriber station starts monitoring.
- NGHBR_CONFIG_HSBS indicates that configuration of the second sector is unknown.
- the subscriber station handoffs to a sector, for which NGHBR_CONFIG_HSBS indicates that a configuration is known, regardless of whether a F-BSCH is transmitted or not.
- the subscriber station attempts to find non-broadcast related neighbor information.
- communication system in accordance with IS-95 and IS-2100 standards provide a NGHBR_CONFIG, which indicates neighbor information, e.g., number of frequency assignment and paging channels.
- neighbor information e.g., number of frequency assignment and paging channels.
- the subscriber station need not initiate the full initialization process as described above, but acquires a frequency and a paging channel of the neighbor sector using the above-described hashing method in accordance with the neighbor information. If such information is not found or is inconclusive, e.g., unknown neighbors' configuration, the subscriber station must enter initialization process. Once the subscriber station acquires a new sector, the subscriber station can receive the Broadcast Service Parameter Message to determine availability of HSBS channels in that sector and tune to the appropriate frequency carrying the HSBS channel and resume receiving the HSBS channel.
- this example contemplates a handoff for a subscriber station in the dedicated mode (e.g., in a voice call) on a traffic channel, while also monitoring a F-BSCH.
- the base station-subscriber station signaling assisted handoff is performed for the call.
- the handoff methods disclosed in the examples of the present invention are performed for the F-BSCH.
- the base station provides the subscriber station with a new pilot sets for the handoff on a traffic channel via a handoff direction messages.
- the subscriber receives information about the pilot Sets via the Broadcast Service Parameter Message in accordance to one example.
- the subscriber station is able to receives the Broadcast Service Parameter Message only in an idle state.
- the handoff direction message indicates the pilot sets for both the traffic channel and the F-BSCH.
- SHO groups determine the Active Set for a F-BSCH.
- no information pertaining to the F-BSCH is sent in the handoff direction message because the F-BSCH is not a dedicated channel. Rather, the F-BSCH SHO groups for each sector are sent via dedicated mode counterparts to overhead messages.
- F-BSCH is soft-combined or not depends on the SHO groups involved (as advertised by the Broadcast Service Parameters Message) and is not related to whether the dedicated traffic channel is being soft-combined or not.
- DSP digital signal processor
- ASIC application specific integrated circuit
- FPGA field programmable gate array
- a general purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine.
- a processor may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration.
- a software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.
- An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium.
- the storage medium may be integral to the processor.
- the processor and the storage medium may reside in an ASIC.
- the ASIC may reside in a user terminal.
- the processor and the storage medium may reside as discrete components in a user terminal.
Claims (4)
- Ein Verfahren für Set- bzw. Einstellungsmanagement in einem Broadcast Kommunikationssystem, wobei das Verfahren die folgenden Schritte aufweist:Empfangen an einer Teilnehmerstation einer ersten Liste, wobei die erste Liste einen ersten Satz von Sektoren identifiziert, die ein Teil einer Soft Handoff, SHO, Gruppe des Sektors für jeden unterstützten Broadcast Kanal sind;Zuordnen von Identifizierern an der Teilnehmerstation von Sektoren in der bereitgestellten ersten Liste in einen Nachbarsatz;Messen einer Qualitätsmetrik an der Teilnehmerstation von einer Vorwärtsverbindung, die durch jeden identifizierten Sektor übertragen wird;Entfernen von dem Nachbarsatz an der Teilnehmerstation eines Identifizierers von einem Sektor, dessen gemessene Qualitätsmetrik einen ersten vorbestimmten Pegel überschreitet; undPlatzieren des Identifizierers des Sektors direkt in einem aktiven Satz an der Teilnehmerstation, ohne dass der Identifizierer zuvor in einem Kandidatensatz platziert wurde.
- Das Verfahren nach Anspruch 1, wobei das Verfahren ferner die folgenden Schritte aufweist:Entfernen, von dem aktiven Satz, eines Identifizierers eines ersten Sektors, dessen Qualitätsmetrik von einer Qualitätsmetrik eines zweiten Sektors überschritten wird, wobei ein Identifizierer dieses Sektors nicht zu dem aktiven Satz gehört; undPlatzieren des Identifizierers des zweiten Sektors in dem aktiven Satz.
- Das Verfahren nach einem der vorhergehenden Ansprüche, wobei das Verfahren ferner folgende Schritte aufweist:Erzeugen, an der Teilnehmerstation, eines weiteren Satzes, der einen weiteren Satz von Sektoren identifiziert, der alle Sektoren identifiziert, die nicht in den Nachbarsatz oder dem aktiven Satz gelistet sind;Entfernen von dem weiteren Satz eines Identifizierers eines Sektors, dessen gemessene Qualitätsmetrik den ersten vorbestimmten Pegel überschreitet; undPlatzieren des Identifizierers des Sektors in dem aktiven Satz.
- Ein computerlesbares Medium, wobei das Medium Anweisungen aufweist, die, wenn sie von einem Prozessor ausgeführt werden, den Prozessor dazu veranlassen die Verfahrensschritte nach einem der vorhergehenden Ansprüche auszuführen.
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EP02752843A EP1419670A1 (de) | 2001-08-20 | 2002-08-15 | Verfahren und system zum weiterreichen in einem rundfunk-kommunikationssystem |
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-
2001
- 2001-08-20 US US09/933,607 patent/US6731936B2/en not_active Expired - Lifetime
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2002
- 2002-08-15 CN CN2006101155857A patent/CN1956591B/zh not_active Expired - Lifetime
- 2002-08-15 KR KR1020087030568A patent/KR100949933B1/ko active IP Right Grant
- 2002-08-15 KR KR1020047002565A patent/KR100909192B1/ko active IP Right Grant
- 2002-08-15 WO PCT/US2002/026036 patent/WO2003017713A1/en active Application Filing
- 2002-08-15 CN CNB028208005A patent/CN1278582C/zh not_active Expired - Lifetime
- 2002-08-15 EP EP10013213A patent/EP2375820A1/de not_active Withdrawn
- 2002-08-15 JP JP2003521660A patent/JP4833514B2/ja not_active Expired - Lifetime
- 2002-08-15 EP EP10013212.5A patent/EP2375819B1/de not_active Expired - Lifetime
- 2002-08-15 EP EP02752843A patent/EP1419670A1/de not_active Withdrawn
- 2002-08-20 TW TW091118788A patent/TWI228009B/zh not_active IP Right Cessation
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-
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- 2005-04-08 HK HK05102992A patent/HK1070524A1/xx not_active IP Right Cessation
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Also Published As
Publication number | Publication date |
---|---|
TWI228009B (en) | 2005-02-11 |
EP2375820A1 (de) | 2011-10-12 |
JP2010016845A (ja) | 2010-01-21 |
KR100949933B1 (ko) | 2010-03-30 |
KR20090009982A (ko) | 2009-01-23 |
CN1956591B (zh) | 2010-11-03 |
JP2009089408A (ja) | 2009-04-23 |
JP2005500767A (ja) | 2005-01-06 |
CN1572123A (zh) | 2005-01-26 |
US20070243871A1 (en) | 2007-10-18 |
EP1419670A1 (de) | 2004-05-19 |
KR100909192B1 (ko) | 2009-07-23 |
US20030036384A1 (en) | 2003-02-20 |
US7254394B2 (en) | 2007-08-07 |
US6731936B2 (en) | 2004-05-04 |
CN1278582C (zh) | 2006-10-04 |
JP4933515B2 (ja) | 2012-05-16 |
JP4833514B2 (ja) | 2011-12-07 |
WO2003017713A1 (en) | 2003-02-27 |
KR20040027971A (ko) | 2004-04-01 |
US7937086B2 (en) | 2011-05-03 |
HK1070524A1 (en) | 2005-06-17 |
CN1956591A (zh) | 2007-05-02 |
EP2375819A1 (de) | 2011-10-12 |
US20040180661A1 (en) | 2004-09-16 |
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